Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& !...

109
Published by the non-prot Great Minds TM . Copyright © 2015 Great Minds. No part of this work may be reproduced, sold, or commercialized, in whole or in part, without written permission from Great Minds. Non-commercial use is licensed pursuant to a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 license; for more information, go to http://greatminds.net/maps/math/copyright. “Great Minds” and “Eureka Math” are registered trademarks of Great Minds. Printed in the U.S.A. This book may be purchased from the publisher at eureka-math.org 10 9 8 7 6 5 4 3 2 G7-M1-SFA-1.3.1-05.2016 Eureka Math Grade 7 Module 1 Student File_A Student Workbook This le contains : G7-M1 Classwork G7-M1 A Story of ®

Transcript of Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& !...

Page 1: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Published by the non-profit Great MindsTM.

Copyright © 2015 Great Minds. No part of this work may be reproduced, sold, or commercialized, in whole or in part, without written permission from Great Minds. Non-commercial use is licensed pursuant to a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 license; for more information, go to http://greatminds.net/maps/math/copyright. “Great Minds” and “Eureka Math” are registered trademarks of Great Minds.

Printed in the U.S.A. This book may be purchased from the publisher at eureka-math.org 10 9 8 7 6 5 4 3 2

G7-M1-SFA-1.3.1-05.2016

Eureka Math™

Grade 7 Module 1

Student File_AStudent WorkbookThis file contains :• G7-M1 Classwork• G7-M1

A Story of ®

Page 2: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 1

Lesson 1: An Experience in Relationships as Measuring Rate

Key Terms from Grade 6 Ratios and Unit Rates

A ratio is an ordered pair of numbers which are not both zero. A ratio is denoted 𝐴𝐴:𝐵𝐵 to indicate the order of the numbers: the number 𝐴𝐴 is first, and the number 𝐵𝐵 is second.

Two ratios 𝐴𝐴:𝐵𝐵 and 𝐶𝐶:𝐷𝐷 are equivalent ratios if there is a nonzero number 𝑐𝑐 such that 𝐶𝐶 = 𝑐𝑐𝐴𝐴 and 𝐷𝐷 = 𝑐𝑐𝐵𝐵. For example, two ratios are equivalent if they both have values that are equal.

A ratio relationship between two types of quantities, such as 5 miles per 2 hours, can be described as a rate (i.e., the quantity 2.5 miles/hour).

The numerical part of the rate is called the unit rate and is simply the value of the ratio, in this case 2.5. This means that in 1 hour the car travels 2.5 miles. The unit for the rate is miles/hour, read miles per hour.

Lesson 1: An Experience in Relationships as Measuring Rate

Classwork

Example 1: How Fast Is Our Class?

Record the results from the paper-passing exercise in the table below.

Trial Number of Papers

Passed

Time

(in seconds)

Ratio of Number of

Papers Passed to Time Rate Unit Rate

1

2

3

S.1

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 3: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 1

Lesson 1: An Experience in Relationships as Measuring Rate

Example 2: Our Class by Gender

Number of Boys Number of Girls Ratio of Boys to Girls

Class 1

Class 2

Whole 7th Grade

Create a pair of equivalent ratios by making a comparison of quantities discussed in this Example.

Exercise 1: Which is the Better Buy?

Value-Mart is advertising a Back-to-School sale on pencils. A pack of 30 sells for $7.97, whereas a 12-pack of the same brand costs $4.77. Which is the better buy? How do you know?

S.2

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 4: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 1

Lesson 1: An Experience in Relationships as Measuring Rate

Problem Set

1. Find each rate and unit rate.

a. 420 miles in 7 hours b. 360 customers in 30 days c. 40 meters in 16 seconds d. $7.96 for 5 pounds

2. Write three ratios that are equivalent to the one given: The ratio of right-handed students to left-handed students

is 18: 4.

3. Mr. Rowley has 16 homework papers and 14 exit tickets to return. Ms. Rivera has 64 homework papers and 60 exit tickets to return. For each teacher, write a ratio to represent the number of homework papers to number of exit tickets they have to return. Are the ratios equivalent? Explain.

4. Jonathan’s parents told him that for every 5 hours of homework or reading he completes, he would be able to play 3 hours of video games. His friend Lucas’s parents told their son that he could play 30 minutes for every hour of homework or reading time he completes. If both boys spend the same amount of time on homework and reading this week, which boy gets more time playing video games? How do you know?

5. Of the 30 girls who tried out for the lacrosse team at Euclid Middle School, 12 were selected. Of the 40 boys who tried out, 16 were selected. Are the ratios of the number of students on the team to the number of students trying out the same for both boys and girls? How do you know?

6. Devon is trying to find the unit price on a 6-pack of drinks on sale for $2.99. His sister says that at that price, each drink would cost just over $2.00. Is she correct, and how do you know? If she is not, how would Devon’s sister find the correct price?

7. Each year Lizzie’s school purchases student agenda books, which are sold in the school store. This year, the school purchased 350 books at a cost of $1,137.50. If the school would like to make a profit of $1,500 to help pay for field trips and school activities, what is the least amount they can charge for each agenda book? Explain how you found your answer.

Lesson Summary

Unit rate is often a useful means for comparing ratios and their associated rates when measured in different units. The unit rate allows us to compare varying sizes of quantities by examining the number of units of one quantity per one unit of the second quantity. This value of the ratio is the unit rate.

S.3

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 5: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 2

Lesson 2: Proportional Relationships

Lesson 2: Proportional Relationships

Classwork

Example 1: Pay by the Ounce Frozen Yogurt

A new self-serve frozen yogurt store opened this summer that sells its yogurt at a price based upon the total weight of the yogurt and its toppings in a dish. Each member of Isabelle’s family weighed his dish, and this is what they found. Determine if the cost is proportional to the weight.

Weight (ounces) 12.5 10 5 8

Cost ($) 5 4 2 3.20

The cost _____________________________________ the weight.

Example 2: A Cooking Cheat Sheet

In the back of a recipe book, a diagram provides easy conversions to use while cooking.

The ounces _____________________________________the cups.

12 16 8 4 0

1 2 1 0

Cups

Ounces

S.4

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 6: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 2

Lesson 2: Proportional Relationships

Exercise 1

During Jose’s physical education class today, students visited activity stations. Next to each station was a chart depicting how many calories (on average) would be burned by completing the activity.

Calories Burned While Jumping Rope

a. Is the number of calories burned proportional to time? How do you know? b. If Jose jumped rope for 6.5 minutes, how many calories would he expect to burn?

33 44 22 11 0

3 4 2 1 0

Time (minutes)

Calories Burned

S.5

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 7: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 2

Lesson 2: Proportional Relationships

Example 3: Summer Job

Alex spent the summer helping out at his family’s business. He was hoping to earn enough money to buy a new $220 gaming system by the end of the summer. Halfway through the summer, after working for 4 weeks, he had earned $112. Alex wonders, “If I continue to work and earn money at this rate, will I have enough money to buy the gaming system by the end of the summer?”

To determine if he will earn enough money, he decided to make a table. He entered his total money earned at the end of Week 1 and his total money earned at the end of Week 4.

Week 0 1 2 3 4 5 6 7 8

Total Earnings $28 $112

a. Work with a partner to answer Alex’s question.

b. Are Alex’s total earnings proportional to the number of weeks he worked? How do you know?

S.6

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 8: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 2

Lesson 2: Proportional Relationships

Problem Set 1. A cran-apple juice blend is mixed in a ratio of cranberry to apple of 3 to 5.

a. Complete the table to show different amounts that are proportional.

Amount of Cranberry

Amount of Apple

b. Why are these quantities proportional?

2. John is filling a bathtub that is 18 inches deep. He notices that it takes two minutes to fill the tub with three inches of water. He estimates it will take 10 more minutes for the water to reach the top of the tub if it continues at the same rate. Is he correct? Explain.

Lesson Summary

Measures of one type of quantity are proportional to measures of a second type of quantity if there is a number so that for every measure of a quantity of the first type, the corresponding measure of a quantity of the second type is given by ; that is, = . The number is called the constant of proportionality.

A proportional relationship is a correspondence between two types of quantities such that the measures of quantities of the first type are proportional to the measures of quantities of the second type.

Note that proportional relationships and ratio relationships describe the same set of ordered pairs but in two different ways. Ratio relationships are used in the context of working with equivalent ratios, while proportional relationships are used in the context of rates.

In the example given below, the distance is proportional to time since each measure of distance, , can be calculated by multiplying each corresponding time, , by the same value, 10. This table illustrates a proportional relationship between time, , and distance, .

Time (h), 0 1 2 3 Distance (km), 0 10 20 30

S.7

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 9: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 3

Lesson 3: Identifying Proportional and Non-Proportional Relationships in Tables

Lesson 3: Identifying Proportional and Non-Proportional

Relationships in Tables

Classwork

Example

You have been hired by your neighbors to babysit their children on Friday night. You are paid $8 per hour. Complete the table relating your pay to the number of hours you worked.

Hours Worked Pay

1

2

3

4

412

5

6

6.5

Based on the table above, is the pay proportional to the hours worked? How do you know?

S.8

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 10: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 3

Lesson 3: Identifying Proportional and Non-Proportional Relationships in Tables

Exercises

For Exercises 1–3, determine if is proportional to . Justify your answer.

1. The table below represents the relationship of the amount of snowfall (in inches) in 5 counties to the amount of time (in hours) of a recent winter storm.

Time (h)

Snowfall (in.)

2 10 6 12 8 16

2.5 5 7 14

2. The table below shows the relationship between the cost of renting a movie (in dollars) to the number of days the movie is rented.

Number of Days

Cost (dollars)

6 2 9 3

24 8 3 1

S.9

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 11: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 3

Lesson 3: Identifying Proportional and Non-Proportional Relationships in Tables

3. The table below shows the relationship between the amount of candy bought (in pounds) and the total cost of the candy (in dollars).

Amount of

Candy (pounds)

Cost (dollars)

5 10 4 8 6 12 8 16

10 20

4. Randy is planning to drive from New Jersey to Florida. Every time Randy stops for gas, he records the distance he traveled in miles and the total number of gallons used. Assume that the number of miles driven is proportional to the number of gallons consumed in order to complete the table.

Gallons Consumed 2 4 8 10 12

Miles Driven 54 189 216

S.10

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 12: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 3

Lesson 3: Identifying Proportional and Non-Proportional Relationships in Tables

Problem Set

In each table, determine if is proportional to . Explain why or why not.

1.

3 12 5 20 2 8 8 32

2.

3 15 4 17 5 19 6 21

3.

6 4 9 6

12 8 3 2

4. Kayla made observations about the selling price of a new brand of coffee that sold in three different-sized bags. She

recorded those observations in the following table:

Ounces of Coffee 6 8 16 Price in Dollars 2.10 2.80 5.60

a. Is the price proportional to the amount of coffee? Why or why not? b. Use the relationship to predict the cost of a 20 oz. bag of coffee.

5. You and your friends go to the movies. The cost of admission is $9.50 per person. Create a table showing the relationship between the number of people going to the movies and the total cost of admission. Explain why the cost of admission is proportional to the amount of people.

6. For every 5 pages Gil can read, his daughter can read 3 pages. Let represent the number of pages Gil reads, and let represent the number of pages his daughter reads. Create a table showing the relationship between the number of pages Gil reads and the number of pages his daughter reads. Is the number of pages Gil’s daughter reads proportional to the number of pages he reads? Explain why or why not.

Lesson Summary

A type of quantity is proportional to a second if there is a constant number such that the product of each measure of the first type and the constant is equal to the corresponding measure of the second type.

Steps to determine if quantities in a table are proportional to each other:

1. For each row (or column), calculate where 𝐴𝐴 is the measure of the first quantity, and 𝐵𝐵 is the measure of the

second quantity.

2. If the value of is the same for each pair of numbers, then the quantities in the table are proportional to each

other.

S.11

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 13: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 3

Lesson 3: Identifying Proportional and Non-Proportional Relationships in Tables

7. The table shows the relationship between the number of parents in a household and the number of children in the same household. Is the number of children proportional to the number of parents in the household? Explain why or why not.

Number of

Parents

Number of

Children

0 0 1 3 1 5 2 4 2 1

8. The table below shows the relationship between the number of cars sold and the amount of money earned by the car salesperson. Is the amount of money earned, in dollars, proportional to the number of cars sold? Explain why or why not.

Number of Cars

Sold

Money Earned

(in dollars)

1 250 2 600 3 950 4 1,076 5 1,555

9. Make your own example of a relationship between two quantities that is NOT proportional. Describe the situation,

and create a table to model it. Explain why one quantity is not proportional to the other.

S.12

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 14: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 4

Lesson 4: Identifying Proportional and Non-Proportional Relationships in Tables

Lesson 4: Identifying Proportional and Non-Proportional

Relationships in Tables

Classwork

Example: Which Team Will Win the Race?

You have decided to walk in a long-distance race. There are two teams that you can join. Team A walks at a constant rate of 2.5 miles per hour. Team B walks 4 miles the first hour and then 2 miles per hour after that.

Task: Create a table for each team showing the distances that would be walked for times of 1, 2, 3, 4, 5, and 6 hours. Using your tables, answer the questions that follow.

Team A Team B Time

(hours) Distance (miles)

Time (hours)

Distance (miles)

a. For which team is distance proportional to time? Explain your reasoning.

b. Explain how you know distance for the other team is not proportional to time.

S.13

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 15: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 4

Lesson 4: Identifying Proportional and Non-Proportional Relationships in Tables

c. At what distance in the race would it be better to be on Team B than Team A? Explain.

d. If the members on each team walked for 10 hours, how far would each member walk on each team?

e. Will there always be a winning team, no matter what the length of the course? Why or why not?

f. If the race is 12 miles long, which team should you choose to be on if you wish to win? Why would you choose this team?

g. How much sooner would you finish on that team compared to the other team?

S.14

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 16: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 4

Lesson 4: Identifying Proportional and Non-Proportional Relationships in Tables

Exercises

1. Bella types at a constant rate of 42 words per minute. Is the number of words she can type proportional to the number of minutes she types? Create a table to determine the relationship.

Minutes 1 2 3 6 60

Number of Words

2. Mark recently moved to a new state. During the first month, he visited five state parks. Each month after, he visited two more. Complete the table below, and use the results to determine if the number of parks visited is proportional to the number of months.

Number of Months Number of State Parks

1

2

3

23

S.15

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 17: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 4

Lesson 4: Identifying Proportional and Non-Proportional Relationships in Tables

3. The table below shows the relationship between the side length of a square and the area. Complete the table. Then, determine if the length of the sides is proportional to the area.

Side Length (inches)

Area (square inches)

1 1

2 4

3

4

5

8

12

S.16

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 18: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 4

Lesson 4: Identifying Proportional and Non-Proportional Relationships in Tables

Problem Set 1. Joseph earns $15 for every lawn he mows. Is the amount of money he earns proportional to the number of lawns

he mows? Make a table to help you identify the type of relationship.

Number of Lawns Mowed

Earnings ($)

2. At the end of the summer, Caitlin had saved $120 from her summer job. This was her initial deposit into a new

savings account at the bank. As the school year starts, Caitlin is going to deposit another $5 each week from her allowance. Is her account balance proportional to the number of weeks of deposits? Use the table below. Explain your reasoning.

Time (in weeks)

Account Balance ($)

3. Lucas and Brianna read three books each last month. The table shows the number of pages in each book and the

length of time it took to read the entire book.

Pages Lucas Read 208 156 234 Pages Brianna Read 168 120 348

Time (hours) 8 6 9 Time (hours) 6 4 12

a. Which of the tables, if any, shows a proportional relationship? b. Both Lucas and Brianna had specific reading goals they needed to accomplish. What different strategies did

each person employ in reaching those goals?

S.17

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 19: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 5

Lesson 5: Identifying Proportional and Non-Proportional Relationships in Graphs

Lesson 5: Identifying Proportional and Non-Proportional

Relationships in Graphs

Classwork

Opening Exercise

Isaiah sold candy bars to help raise money for his scouting troop. The table shows the amount of candy he sold compared to the money he received.

Candy Bars Sold

Money Received ($)

2 3 4 5 8 9

12 12

Is the amount of candy bars sold proportional to the money Isaiah received? How do you know?

__________________________________________________________________________________________________

__________________________________________________________________________________________________

Exploratory Challenge/Examples 1–3: From a Table to a Graph

Example 1

Using the ratio provided, create a table that shows money received is proportional to the number of candy bars sold. Plot the points in your table on the grid.

Candy Bars Sold

Money Received ($)

2 3

0123456789

1011121314

0 1 2 3 4 5 6 7 8 9 10

S.18

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 20: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 5

Lesson 5: Identifying Proportional and Non-Proportional Relationships in Graphs

Example 2

Graph the points from the Opening Exercise.

Candy Bars Sold

Money Received ($)

2 3

4 5

8 9

12 12

Example 3

Graph the points provided in the table below, and describe the similarities and differences when comparing your graph to the graph in Example 1.

0 6

3 9

6 12

9 15

12 18 Similarities with Example 1:

Differences from Example 1:

Important Note:

Characteristics of graphs of proportional relationships:

0123456789

1011121314

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14

Mo

ne

y R

ece

ive

d,

Number of Candy Bars Sold,

02468

101214161820

0 1 2 3 4 5 6 7 8 9 10 11 12 13 14

S.19

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 21: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 5

Lesson 5: Identifying Proportional and Non-Proportional Relationships in Graphs

Lesson Summary

When two proportional quantities are graphed on a coordinate plane, the points appear on a line that passes through the origin.

Problem Set

1. Determine whether or not the following graphs represent two quantities that are proportional to each other. Explain your reasoning. a. b.

c.

0

100

200

300

400

500

0 100 200 300 400 500Do

nat

ion

s M

atch

ed

by

Be

ne

fact

or

($)

Money Donated

Donated Money vs. Donations Matched by Benefactor

0

1

2

3

4

5

6

7

8

0 1 2 3 4 5 6 7 8

Ad

mis

sio

n P

rice

($

)

Age (years)

Age vs. Admission Price

02468

101214161820

0 1 2 3 4 5 6 7 8

Extr

a C

red

it P

oin

ts

Number of Problems Solved

Extra Credit vs. Number of Problems

S.20

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 22: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 5

Lesson 5: Identifying Proportional and Non-Proportional Relationships in Graphs

2. Create a table and a graph for the ratios 2: 22, 3 to 15, and 1: 11. Does the graph show that the two quantities are proportional to each other? Explain why or why not.

3. Graph the following tables, and identify if the two quantities are proportional to each other on the graph. Explain

why or why not.

a.

b.

3 1

6 2

9 3

12 4

1 4

2 5

3 6

4 7

0123456

0 1 2 3 4 5 6 7 8 9 10 11 12

02468

1012141618202224

0 1 2 3 4 5

0123456789

10

0 1 2 3 4 5

S.21

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 23: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 6

Lesson 6: Identifying Proportional and Non-Proportional Relationships in Graphs

Lesson 6: Identifying Proportional and Non-Proportional

Relationships in Graphs

Classwork Today’s Exploratory Challenge is an extension of Lesson 5. You will be working in groups to create a table and graph and to identify whether the two quantities are proportional to each other.

Poster Layout

Use for notes

Problem: Table:

Graph:

Proportional or Not? Explanation:

S.22

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 24: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 6

Lesson 6: Identifying Proportional and Non-Proportional Relationships in Graphs

Gallery Walk

Take notes and answer the following questions:

� Were there any differences found in groups that had the same ratios? � Did you notice any common mistakes? How might they be fixed? � Were there any groups that stood out by representing their problem and findings exceptionally clearly?

Poster 1:

Poster 2:

Poster 3:

Poster 4:

S.23

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 25: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 6

Lesson 6: Identifying Proportional and Non-Proportional Relationships in Graphs

Poster 5:

Poster 6:

Poster 7:

Poster 8:

Note about Lesson Summary:

S.24

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 26: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 6

Lesson 6: Identifying Proportional and Non-Proportional Relationships in Graphs

Problem Set Sally’s aunt put money in a savings account for her on the day Sally was born. The savings account pays interest for keeping her money in the bank. The ratios below represent the number of years to the amount of money in the savings account.

� After one year, the interest accumulated, and the total in Sally’s account was $312.

� After three years, the total was $340. After six years, the total was $380. � After nine years, the total was $430. After 12 years, the total amount in Sally’s savings account was $480.

Using the same four-fold method from class, create a table and a graph, and explain whether the amount of money accumulated and the time elapsed are proportional to each other. Use your table and graph to support your reasoning.

Lesson Summary The plotted points in a graph of a proportional relationship lie on a line that passes through the origin.

S.25

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 27: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 7

Lesson 7: Unit Rate as the Constant of Proportionality

Lesson 7: Unit Rate as the Constant of Proportionality

Classwork

Example 1: National Forest Deer Population in Danger?

Wildlife conservationists are concerned that the deer population might not be constant across the National Forest. The scientists found that there were 144 deer in a 16-square-mile area of the forest. In another part of the forest, conservationists counted 117 deer in a 13-square-mile area. Yet a third conservationist counted 216 deer in a 24-square-mile plot of the forest. Do conservationists need to be worried?

a. Why does it matter if the deer population is not constant in a certain area of the National Forest?

b. What is the population density of deer per square mile?

The unit rate of deer per 1 square mile is _______.

Constant of Proportionality:

Explain the meaning of the constant of proportionality in this problem:

c. Use the unit rate of deer per square mile (or ) to determine how many deer there are for every 207 square

miles.

d. Use the unit rate to determine the number of square miles in which you would find 486 deer.

S.26

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 28: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 7

Lesson 7: Unit Rate as the Constant of Proportionality

Example 2: You Need WHAT?

Brandon came home from school and informed his mother that he had volunteered to make cookies for his entire grade level. He needs 3 cookies for each of the 96 students in seventh grade. Unfortunately, he needs the cookies the very next day! Brandon and his mother determined that they can fit 36 cookies on two cookie sheets.

a. Is the number of cookies proportional to the number of cookie sheets used in baking? Create a table that shows data for the number of sheets needed for the total number of cookies baked.

Table:

The unit rate of is __________.

Constant of Proportionality:

Explain the meaning of the constant of proportionality in this problem:

b. It takes 2 hours to bake 8 sheets of cookies. If Brandon and his mother begin baking at 4:00 p.m., when will they finish baking the cookies?

Vocabulary

A variable is a symbol (such as a letter) that is a placeholder for a number.

If a proportional relationship is described by the set of ordered pairs ( , ) that satisfies the equation = for some number , then is called the constant of proportionality. It is the number that describes the multiplicative relationship between measures, and , of two types of quantities. The ( , ) pairs represent all the pairs of numbers that make the equation true.

Note: In a given situation, it would be reasonable to assign any variable as a placeholder for the given measures. For example, a set of ordered pairs ( , ) would be all the points that satisfy the equation = , where is the constant of proportionality. This value for specifies a number for the given situation.

S.27

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 29: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 7

Lesson 7: Unit Rate as the Constant of Proportionality

Example 3: French Class Cooking

Suzette and Margo want to prepare crêpes for all of the students in their French class. A recipe makes 20 crêpes with a certain amount of flour, milk, and 2 eggs. The girls already know that they have plenty of flour and milk to make 50 crêpes, but they need to determine the number of eggs they will need for the recipe because they are not sure they have enough.

a. Considering the amount of eggs necessary to make the crêpes, what is the constant of proportionality?

b. What does the constant or proportionality mean in the context of this problem?

c. How many eggs are needed to make 50 crêpes?

S.28

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 30: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 7

Lesson 7: Unit Rate as the Constant of Proportionality

Problem Set For each of the following problems, define the constant of proportionality to answer the follow-up question.

1. Bananas are $0.59/pound.

a. What is the constant of proportionality, or ?

b. How much will 25 pounds of bananas cost?

2. The dry cleaning fee for 3 pairs of pants is $18.

a. What is the constant of proportionality?

b. How much will the dry cleaner charge for 11 pairs of pants?

3. For every $5 that Micah saves, his parents give him $10.

a. What is the constant of proportionality?

b. If Micah saves $150, how much money will his parents give him?

4. Each school year, the seventh graders who study Life Science participate in a special field trip to the city zoo. In 2010, the school paid $1,260 for 84 students to enter the zoo. In 2011, the school paid $1,050 for 70 students to enter the zoo. In 2012, the school paid $1,395 for 93 students to enter the zoo.

a. Is the price the school pays each year in entrance fees proportional to the number of students entering the zoo?

b. Explain why or why not.

c. Identify the constant of proportionality, and explain what it means in the context of this situation.

d. What would the school pay if 120 students entered the zoo?

e. How many students would enter the zoo if the school paid $1,425?

Lesson Summary

If a proportional relationship is described by the set of ordered pairs ( , ) that satisfies the equation = for some number , then is called the constant of proportionality.

S.29

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 31: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 8

Lesson 8: Representing Proportional Relationships with Equations

Lesson 8: Representing Proportional Relationships with

Equations

Classwork

Points to remember:

� Proportional relationships have a constant ratio, or unit rate.

� The constant ratio, or unit rate of , can also be called the constant of proportionality.

Discussion Notes

How could we use what we know about the constant of proportionality to write an equation?

S.30

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 32: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 8

Lesson 8: Representing Proportional Relationships with Equations

Example 1: Do We Have Enough Gas to Make It to the Gas Station?

Your mother has accelerated onto the interstate beginning a long road trip, and you notice that the low fuel light is on, indicating that there is a half a gallon left in the gas tank. The nearest gas station is 26 miles away. Your mother keeps a log where she records the mileage and the number of gallons purchased each time she fills up the tank. Use the information in the table below to determine whether you will make it to the gas station before the gas runs out. You know that if you can determine the amount of gas that her car consumes in a particular number of miles, then you can determine whether or not you can make it to the next gas station.

Mother’s Gas Record

Gallons Miles Driven

8 224 10 280 4 112

a. Find the constant of proportionality, and explain what it represents in this situation. b. Write equation(s) that will relate the miles driven to the number of gallons of gas.

c. Knowing that there is a half gallon left in the gas tank when the light comes on, will she make it to the nearest gas station? Explain why or why not.

d. Using the equation found in part (b), determine how far your mother can travel on 18 gallons of gas. Solve the

problem in two ways: once using the constant of proportionality and once using an equation.

e. Using the constant of proportionality, and then using the equation found in part (b), determine how many gallons of gas would be needed to travel 750 miles.

S.31

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 33: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 8

Lesson 8: Representing Proportional Relationships with Equations

Example 2: Andrea’s Portraits

Andrea is a street artist in New Orleans. She draws caricatures (cartoon-like portraits) of tourists. People have their portrait drawn and then come back later to pick it up from her. The graph below shows the relationship between the number of portraits she draws and the amount of time in hours she needs to draw the portraits.

a. Write several ordered pairs from the graph, and explain what each ordered pair means in the context of this

graph.

b. Write several equations that would relate the number of portraits drawn to the time spent drawing the portraits.

c. Determine the constant of proportionality, and explain what it means in this situation.

Time Spent Drawing Portraits (T)

Nu

mb

er

of

Po

rtra

its

Dra

wn

(N

)

S.32

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 34: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 8

Lesson 8: Representing Proportional Relationships with Equations

Problem Set

Write an equation that will model the proportional relationship given in each real-world situation.

1. There are 3 cans that store 9 tennis balls. Consider the number of balls per can. a. Find the constant of proportionality for this situation. b. Write an equation to represent the relationship.

2. In 25 minutes Li can run 10 laps around the track. Determine the number of laps she can run per minute. a. Find the constant of proportionality in this situation. b. Write an equation to represent the relationship.

3. Jennifer is shopping with her mother. They pay $2 per pound for tomatoes at the vegetable stand. a. Find the constant of proportionality in this situation. b. Write an equation to represent the relationship.

4. It costs $15 to send 3 packages through a certain shipping company. Consider the number of packages per dollar. a. Find the constant of proportionality for this situation. b. Write an equation to represent the relationship.

5. On average, Susan downloads 60 songs per month. An

online music vendor sells package prices for songs that can be downloaded onto personal digital devices. The graph below shows the package prices for the most popular promotions. Susan wants to know if she should buy her music from this company or pay a flat fee of $58.00 per month offered by another company. Which is the better buy?

a. Find the constant of proportionality for this situation.

b. Write an equation to represent the relationship. c. Use your equation to find the answer to Susan’s question above. Justify your answer with mathematical

evidence and a written explanation.

Lesson Summary

If a proportional relationship is described by the set of ordered pairs that satisfies the equation = , where is a positive constant, then is called the constant of proportionality. The constant of proportionality expresses the multiplicative relationship between each -value and its corresponding -value.

S.33

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 35: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 8

Lesson 8: Representing Proportional Relationships with Equations

6. Allison’s middle school team has designed t-shirts containing their team name and color. Allison and her friend

Nicole have volunteered to call local stores to get an estimate on the total cost of purchasing t-shirts. Print-o-Rama charges a set-up fee, as well as a fixed amount for each shirt ordered. The total cost is shown below for the given number of shirts. Value T’s and More charges $8 per shirt. Which company should they use?

a. Does either pricing model represent a proportional relationship between the quantity of t-shirts and the total cost? Explain.

b. Write an equation relating cost and shirts for Value T’s and More. c. What is the constant of proportionality of Value T’s and More? What does it represent? d. How much is Print-o-Rama’s set-up fee? e. If you need to purchase 90 shirts, write a proposal to your teacher indicating which company the team should

use. Be sure to support your choice. Determine the number of shirts that you need for your team.

Print-o-Rama

Number of

Shirts (S)

Total Cost

(C)

10 95

25

50 375

75

100

S.34

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 36: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 9

Lesson 9: Representing Proportional Relationships with Equations

Lesson 9: Representing Proportional Relationships with

Equations

Classwork

Example 1: Jackson’s Birdhouses

Jackson and his grandfather constructed a model for a birdhouse. Many of their neighbors offered to buy the

birdhouses. Jackson decided that building birdhouses could help him earn money for his summer camp, but he is not

sure how long it will take him to finish all of the requests for birdhouses. If Jackson can build 7 birdhouses in 5 hours,

write an equation that will allow Jackson to calculate the time it will take him to build any given number of birdhouses,

assuming he works at a constant rate.

a. Write an equation that you could use to find out how long it will take him to build any number of birdhouses.

b. How many birdhouses can Jackson build in 40 hours?

c. How long will it take Jackson to build 35 birdhouses? Use the equation from part (a) to solve the problem.

d. How long will it take to build 71 birdhouses? Use the equation from part (a) to solve the problem.

S.35

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 37: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 9

Lesson 9: Representing Proportional Relationships with Equations

Example 2: Al’s Produce Stand

Al’s Produce Stand sells 6 ears of corn for $1.50. Barbara’s Produce Stand sells 13 ears of corn for $3.12. Write two

equations, one for each produce stand, that model the relationship between the number of ears of corn sold and the

cost. Then, use each equation to help complete the tables below.

Al’s Produce Stand Barbara’s Produce Stand

Ears 6 14 21 Ears 13 14 21

Cost $1.50 $50.00 Cost $3.12 $49.92

S.36

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 38: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 9

Lesson 9: Representing Proportional Relationships with Equations

Problem Set

1. A person who weighs 100 pounds on Earth weighs 16.6 lb. on the moon.

a. Which variable is the independent variable? Explain why.

b. What is an equation that relates weight on Earth to weight on the moon?

c. How much would a 185-pound astronaut weigh on the moon? Use an equation to explain how you know.

d. How much would a man who weighs 50 pounds on the moon weigh on Earth?

2. Use this table to answer the following questions.

Number of Gallons of Gas Number of Miles Driven

0 0

2 62

4 124

10 310

a. Which variable is the dependent variable, and why?

b. Is the number of miles driven proportionally related to the number of gallons of gas consumed? If so, what is

the equation that relates the number of miles driven to the number of gallons of gas?

c. In any ratio relating the number of gallons of gas and the number of miles driven, will one of the values always

be larger? If so, which one?

d. If the number of gallons of gas is known, can you find the number of miles driven? Explain how this value

would be calculated.

e. If the number of miles driven is known, can you find the number of gallons of gas consumed? Explain how this

value would be calculated.

f. How many miles could be driven with 18 gallons of gas?

g. How many gallons are used when the car has been driven 18 miles?

h. How many miles have been driven when half a gallon of gas is used?

i. How many gallons of gas have been used when the car has been driven for a half mile?

Lesson Summary

How do you find the constant of proportionality? Divide to find the unit rate, = .

How do you write an equation for a proportional relationship? = , substituting the value of the constant of

proportionality in place of .

What is the structure of proportional relationship equations, and how do we use them? and values are always

left as variables, and when one of them is known, they are substituted into = to find the unknown using

algebra.

S.37

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 39: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 9

Lesson 9: Representing Proportional Relationships with Equations

3. Suppose that the cost of renting a snowmobile is $37.50 for 5 hours.

a. If 𝑐𝑐 represents the cost and represents the hours, which variable is the dependent variable? Explain why.

b. What would be the cost of renting 2 snowmobiles for 5 hours?

4. In Katya’s car, the number of miles driven is proportional to the number of gallons of gas used. Find the missing

value in the table.

Number of Gallons Number of Miles Driven

0 0

4 112

6 168

224

10 280

a. Write an equation that will relate the number of miles driven to the number of gallons of gas.

b. What is the constant of proportionality?

c. How many miles could Katya go if she filled her 22-gallon tank?

d. If Katya takes a trip of 600 miles, how many gallons of gas would be needed to make the trip?

e. If Katya drives 224 miles during one week of commuting to school and work, how many gallons of gas would

she use?

S.38

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 40: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 10

Lesson 10: Interpreting Graphs of Proportional Relationships

Lesson 10: Interpreting Graphs of Proportional Relationships

Classwork

Example 1

Grandma’s special chocolate chip cookie recipe, which yields 4 dozen cookies, calls for 3 cups of flour.

Using this information, complete the chart:

Create a table comparing the amount of flour used to the amount of cookies.

Is the number of cookies proportional to the amount of flour used? Explain why or why not.

What is the unit rate of cookies

to flour , and what is the

meaning in the context of the problem?

Model the relationship on a graph.

Does the graph show the two quantities being proportional to each other? Explain.

Write an equation that can be used to represent the relationship.

S.39

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 41: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 10

Lesson 10: Interpreting Graphs of Proportional Relationships

Example 2

Below is a graph modeling the amount of sugar required to make Grandma’s special chocolate chip cookies.

a. Record the coordinates from the graph. What do these ordered pairs represent? b. Grandma has 1 remaining cup of sugar. How many dozen cookies will she be able to make? Plot the point on

the graph above. c. How many dozen cookies can Grandma make if she has no sugar? Can you graph this on the coordinate plane

provided above? What do we call this point?

S.40

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 42: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 10

Lesson 10: Interpreting Graphs of Proportional Relationships

Exercises

1. The graph below shows the amount of time a person can shower with a certain amount of water.

a. Can you determine by looking at the graph whether the length of the shower is proportional to the number of gallons of water? Explain how you know.

b. How long can a person shower with 15 gallons of water? How long can a person shower with 60 gallons of water?

c. What are the coordinates of point 𝐴𝐴? Describe point 𝐴𝐴 in the context of the problem.

d. Can you use the graph to identify the unit rate?

S.41

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 43: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 10

Lesson 10: Interpreting Graphs of Proportional Relationships

e. Write the equation to represent the relationship between the number of gallons of water used and the length of a shower.

2. Your friend uses the equation 𝐶𝐶 = 50 to find the total cost, 𝐶𝐶, for the number of people, , entering a local amusement park. a. Create a table and record the cost of entering the amusement park for several different-sized groups of

people.

b. Is the cost of admission proportional to the amount of people entering the amusement park? Explain why or why not.

c. What is the unit rate, and what does it represent in the context of the situation?

S.42

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 44: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 10

Lesson 10: Interpreting Graphs of Proportional Relationships

d. Sketch a graph to represent this relationship.

e. What points must be on the graph of the line if the two quantities represented are proportional to each other? Explain why, and describe these points in the context of the problem.

f. Would the point (5, 250) be on the graph? What does this point represent in the context of the situation?

S.43

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 45: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 10

Lesson 10: Interpreting Graphs of Proportional Relationships

Problem Set

1. The graph to the right shows the relationship of the amount of time (in seconds) to the distance (in feet) run by a jaguar.

a. What does the point (5, 290) represent in the context of the situation?

b. What does the point (3, 174) represent in the context of the situation?

c. Is the distance run by the jaguar proportional to the time? Explain why or why not.

d. Write an equation to represent the distance run by the jaguar. Explain or model your reasoning.

2. Championship t-shirts sell for $22 each.

a. What point(s) must be on the graph for the quantities to be proportional to each other? b. What does the ordered pair (5, 110) represent in the context of this problem? c. How many t-shirts were sold if you spent a total of $88?

3. The graph represents the total cost of renting a car. The cost of

renting a car is a fixed amount each day, regardless of how many miles the car is driven.

a. What does the ordered pair (4, 250) represent? b. What would be the cost to rent the car for a week?

Explain or model your reasoning.

Lesson Summary

The points (0, 0) and (1, ), where is the unit rate, will always appear on the line representing two quantities that are proportional to each other.

� The unit rate, , in the point (1, ) represents the amount of vertical increase for every horizontal increase of 1 unit on the graph.

� The point (0, 0) indicates that when there is zero amount of one quantity, there will also be zero amount of the second quantity.

These two points may not always be given as part of the set of data for a given real-world or mathematical situation, but they will always appear on the line that passes through the given data points.

S.44

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 46: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 10

Lesson 10: Interpreting Graphs of Proportional Relationships

4. Jackie is making a snack mix for a party. She is using cashews and peanuts. The table below shows the relationship of the number of packages of cashews she needs to the number of cans of peanuts she needs to make the mix.

Packages of Cashews Cans of Peanuts

0 0 1 2 2 4 3 6 4 8

a. Write an equation to represent this relationship. b. Describe the ordered pair (12, 24) in the context of the problem.

5. The following table shows the amount of candy and price paid.

Amount of Candy (in pounds) 2 3 5 Cost (in dollars) 5 7.5 12.5

a. Is the cost of the candy proportional to the amount of candy? b. Write an equation to illustrate the relationship between the amount of candy and the cost. c. Using the equation, predict how much it will cost for 12 pounds of candy. d. What is the maximum amount of candy you can buy with $60? e. Graph the relationship.

S.45

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 47: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 11

Lesson 11: Ratios of Fractions and Their Unit Rates

Lesson 11: Ratios of Fractions and Their Unit Rates

Classwork

Example 1: Who is Faster?

During their last workout, Izzy ran 2 14 miles in 15 minutes, and her friend Julia ran 3 3

4 miles in 25 minutes. Each girl thought she was the faster runner. Based on their last run, which girl is correct? Use any approach to find the solution.

S.46

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 48: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 11

Lesson 11: Ratios of Fractions and Their Unit Rates

Example 2: Is Meredith Correct?

A turtle walks of a mile in 50 minutes. What is the unit rate when the turtle’s speed is expressed in miles per hour?

a. To find the turtle’s unit rate, Meredith wrote the following complex fraction. Explain how the fraction was

obtained.

7

8 56

b. Determine the unit rate when the turtle’s speed is expressed in miles per hour.

Exercises

1. For Anthony’s birthday, his mother is making cupcakes for his 12 friends at his daycare. The recipe calls for 3 13 cups

of flour. This recipe makes 2 12 dozen cupcakes. Anthony’s mother has only 1 cup of flour. Is there enough flour for

each of his friends to get a cupcake? Explain and show your work.

S.47

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 49: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 11

Lesson 11: Ratios of Fractions and Their Unit Rates

2. Sally is making a painting for which she is mixing red paint and blue paint. The table below shows the different mixtures being used.

Red Paint (Quarts) Blue Paint (Quarts)

112 2

12

225 4

334 6

14

4 623

1.2 2

1.8 3

a. What is the unit rate for the values of the amount of blue paint to the amount of red paint?

b. Is the amount of blue paint proportional to the amount of red paint?

c. Describe, in words, what the unit rate means in the context of this problem.

S.48

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 50: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 11

Lesson 11: Ratios of Fractions and Their Unit Rates

Lesson Summary

A number written in fraction form whose numerator or denominator is itself a fraction is called a complex fraction.

If a proportional relationship is given by a description such as, “A person walks 2 12 miles in 1 1

4 hours at a constant speed,” then the unit rate is

=

= = 2. The person walks 2 mph.

Problem Set

1. Determine the quotient: 2 47 ÷ 1 3

6.

2. One lap around a dirt track is mile. It takes Bryce hour to ride one lap. What is Bryce’s unit rate, in miles, around

the track?

3. Mr. Gengel wants to make a shelf with boards that are 1 13 feet long. If he has an 18-foot board, how many pieces

can he cut from the big board?

4. The local bakery uses 1.75 cups of flour in each batch of cookies. The bakery used 5.25 cups of flour this morning. a. How many batches of cookies did the bakery make? b. If there are 5 dozen cookies in each batch, how many cookies did the bakery make?

5. Jason eats 10 ounces of candy in 5 days. a. How many pounds does he eat per day? (Recall: 16 ounces = 1 pound) b. How long will it take Jason to eat 1 pound of candy?

S.49

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 51: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 12

Lesson 12: Ratios of Fractions and Their Unit Rates

Lesson 12: Ratios of Fractions and Their Unit Rates

Classwork During this lesson, you are remodeling a room at your house and need to figure out if you have enough money. You will work individually and with a partner to make a plan of what is needed to solve the problem. After your plan is complete, then you will solve the problem by determining if you have enough money.

Example 1: Time to Remodel

You have decided to remodel your bathroom and install a tile floor. The bathroom is in the shape of a rectangle, and the floor measures 14 feet, 8 inches long by 5 feet, 6 inches wide. The tiles you want to use cost $5 each, and each tile

covers 4 23 square feet. If you have $100 to spend, do you have enough money to complete the project?

Make a Plan: Complete the chart to identify the necessary steps in the plan and find a solution.

What I Know What I Want to Find How to Find it

Compare your plan with a partner. Using your plans, work together to determine how much money you will need to complete the project and if you have enough money.

S.50

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 52: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 12

Lesson 12: Ratios of Fractions and Their Unit Rates

Exercise

Which car can travel farther on 1 gallon of gas?

Blue Car: travels 18 25 miles using 0.8 gallons of gas

Red Car: travels 17 25 miles using 0.75 gallons of gas

S.51

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 53: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 12

Lesson 12: Ratios of Fractions and Their Unit Rates

Problem Set 1. You are getting ready for a family vacation. You decide to download as many movies as possible before leaving for

the road trip. If each movie takes 1 25 hours to download, and you downloaded for 5 14 hours, how many movies did you download?

2. The area of a blackboard is 1 13 square yards. A poster’s area is square yards. Find the unit rate and explain, in

words, what the unit rate means in the context of this problem. Is there more than one unit rate that can be calculated? How do you know?

3. A toy jeep is 12 12 inches long, while an actual jeep measures 18 34 feet long. What is the value of the ratio of the length of the toy jeep to the length of the actual jeep? What does the ratio mean in this situation?

4. To make 5 dinner rolls, cup of flour is used.

a. How much flour is needed to make one dinner roll?

b. How many cups of flour are needed to make 3 dozen dinner rolls?

c. How many rolls can you make with 5 23 cups of flour?

S.52

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 54: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 13: Finding Equivalent Ratios Given the Total Quantity

7•1 Lesson 13

Lesson 13: Finding Equivalent Ratios Given the Total Quantity

Classwork

Example 1

A group of 6 hikers are preparing for a one-week trip. All of the group’s supplies will be carried by the hikers in backpacks. The leader decides that each hiker will carry a backpack that is the same fraction of weight to all the other hikers’ weights. This means that the heaviest hiker would carry the heaviest load. The table below shows the weight of each hiker and the weight of the backpack.

Complete the table. Find the missing amounts of weight by applying the same value of the ratio as the first two rows.

Hiker’s Weight Backpack Weight Total Weight (lb.)

152 lb. 4 oz. 14 lb. 8 oz.

107 lb. 10 oz. 10 lb. 4 oz.

129 lb. 15 oz.

68 lb. 4 oz.

8 lb. 12 oz.

10 lb.

S.53

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 55: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 13: Finding Equivalent Ratios Given the Total Quantity

7•1 Lesson 13

Example 2

When a business buys a fast food franchise, it is buying the recipes used at every restaurant with the same name. For example, all Pizzeria Specialty House Restaurants have different owners, but they must all use the same recipes for their pizza, sauce, bread, etc. You are now working at your local Pizzeria Specialty House Restaurant, and listed below are the amounts of meat used on one meat-lovers pizza.

cup of sausage

cup of pepperoni

cup of bacon

cup of ham

cup of beef

What is the total amount of toppings used on a meat-lovers pizza? _________________________ cup(s)

The meat must be mixed using this ratio to ensure that customers receive the same great tasting meat-lovers pizza from every Pizzeria Specialty House Restaurant nationwide. The table below shows 3 different orders for meat-lovers pizzas on the night of the professional football championship game. Using the amounts and total for one pizza given above, fill in every row and column of the table so the mixture tastes the same.

Order 1 Order 2 Order 3

Sausage (cups) 1

Pepperoni (cups) 3

Bacon (cups) 1

Ham (cups) 12

Beef (cups) 118

TOTAL (cups)

S.54

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 56: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 13: Finding Equivalent Ratios Given the Total Quantity

7•1 Lesson 13

Exercise

The table below shows 6 different-sized pans that could be used to make macaroni and cheese. If the ratio of ingredients stays the same, how might the recipe be altered to account for the different-sized pans?

Noodles (cups) Cheese (cups) Pan Size (cups)

5

3 34

14

23

513

558

S.55

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 57: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 13: Finding Equivalent Ratios Given the Total Quantity

7•1 Lesson 13

Problem Set 1. Students in 6 classes, displayed below, ate the same ratio of cheese pizza slices to pepperoni pizza slices. Complete

the following table, which represents the number of slices of pizza students in each class ate.

Slices of Cheese Pizza

Slices of Pepperoni Pizza

Total Slices of Pizza

7

6 15

8

1334

313

21

10

2. To make green paint, students mixed yellow paint with blue paint. The table below shows how many yellow and blue drops from a dropper several students used to make the same shade of green paint. a. Complete the table.

Yellow ( ) (mL)

Blue ( ) (mL)

Total (mL)

312 5

14

5

634

612

b. Write an equation to represent the relationship between the amount of yellow paint and blue paint.

Lesson Summary

To find missing quantities in a ratio table where a total is given, determine the unit rate from the ratio of two given quantities, and use it to find the missing quantities in each equivalent ratio.

S.56

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 58: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 13: Finding Equivalent Ratios Given the Total Quantity

7•1 Lesson 13

3. The ratio of the number of miles run to the number of miles biked is equivalent for each row in the table. a. Complete the table.

Distance Run (miles)

Distance Biked (miles)

Total Amount of Exercise (miles)

6

312 7

512

218

313

b. What is the relationship between distances biked and distances run?

4. The following table shows the number of cups of milk and flour that are needed to make biscuits. Complete the table.

Milk (cups) Flour (cups) Total (cups)

7.5

10.5

12.5 15

11

S.57

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 59: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 14: Multi-Step Ratio Problems

7•1 Lesson 14

Lesson 14: Multi-Step Ratio Problems

Classwork

Example 1: Bargains

Peter’s Pants Palace advertises the following sale: Shirts are off the original price; pants are off the original price;

and shoes are off the original price.

a. If a pair of shoes costs $40, what is the sales price?

b. At Peter’s Pants Palace, a pair of pants usually sells for $33.00. What is the sale price of Peter’s pants?

Example 2: Big Al’s Used Cars

A used car salesperson receives a commission of of the sales price of the car for each car he sells. What would the

sales commission be on a car that sold for $21,999?

S.58

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 60: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 14: Multi-Step Ratio Problems

7•1 Lesson 14

Example 3: Tax Time

As part of a marketing plan, some businesses mark up their prices before they advertise a sales event. Some companies use this practice as a way to entice customers into the store without sacrificing their profits.

A furniture store wants to host a sales event to improve its profit margin and to reduce its tax liability before its inventory is taxed at the end of the year.

How much profit will the business make on the sale of a couch that is marked up by and then sold at a off discount if

the original price is $2,400?

Example 4: Born to Ride

A motorcycle dealer paid a certain price for a motorcycle and marked it up by of the price he paid. Later, he sold it for

$14,000. What was the original price?

S.59

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 61: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 14: Multi-Step Ratio Problems

7•1 Lesson 14

Problem Set

1. A salesperson will earn a commission equal to of the total sales. What is the commission earned on sales totaling

$24,000?

2. DeMarkus says that a store overcharged him on the price of the video game he bought. He thought that the price

was marked of the original price, but it was really off the original price. He misread the advertisement. If the

original price of the game was $48, what is the difference between the price that DeMarkus thought he should pay and the price that the store charged him?

3. What is the cost of a $1,200 washing machine after a discount of the original price?

4. If a store advertised a sale that gave customers a discount, what is the fractional part of the original price that the

customer will pay?

5. Mark bought an electronic tablet on sale for off the original price of $825.00. He also wanted to use a coupon for

off the sales price. How much did Mark pay for the tablet?

6. A car dealer paid a certain price for a car and marked it up by of the price he paid. Later, he sold it for $24,000.

What is the original price?

7. Joanna ran a mile in physical education class. After resting for one hour, her heart rate was 60 beats per minute. If

her heart rate decreased by , what was her heart rate immediately after she ran the mile?

S.60

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 62: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 15: Equations of Graphs of Proportional Relationships Involving Fractions

7•1 Lesson 15

Lesson 15: Equations of Graphs of Proportional Relationships

Involving Fractions

Classwork

Example 1: Mother’s 10K Race

Sam’s mother has entered a 10K race. Sam and his family want to show their support of their mother, but they need to figure out where they should go along the race course. They also need to determine how long it will take her to run the race so that they will know when to meet her at the finish line. Previously, his mother ran a 5K race with a time of

1 12 hours. Assume Sam’s mother ran the same rate as the previous race in order to complete the chart.

Create a table that shows how far Sam’s mother has run after each half hour from the start of the race, and graph it on the coordinate plane to the right.

Time ( , in hours)

Distance Run ( , in kilometers)

a. What are some specific things you notice about this graph?

b. What is the connection between the table and the graph?

c. What does the ordered pair 2, 6 23 represent in the context of this problem?

S.61

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 63: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 15: Equations of Graphs of Proportional Relationships Involving Fractions

7•1 Lesson 15

Example 2: Gourmet Cooking

After taking a cooking class, you decide to try out your new cooking skills by preparing a meal for your family. You have chosen a recipe that uses gourmet mushrooms as the main ingredient. Using the graph below, complete the table of values and answer the following questions.

Weight (in pounds)

Cost (in dollars)

0 0

12 4

1

112 12

16

214 18

a. Is this relationship proportional? How do you know from examining the graph?

b. What is the unit rate for cost per pound?

c. Write an equation to model this data.

d. What ordered pair represents the unit rate, and what does it mean?

e. What does the ordered pair (2, 16) mean in the context of this problem?

f. If you could spend $10.00 on mushrooms, how many pounds could you buy?

g. What would be the cost of 30 pounds of mushrooms?

S.62

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 64: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 15: Equations of Graphs of Proportional Relationships Involving Fractions

7•1 Lesson 15

Problem Set 1. Students are responsible for providing snacks and drinks for the Junior Beta Club Induction Reception. Susan and

Myra were asked to provide the punch for the 100 students and family members who will attend the event. The chart below will help Susan and Myra determine the proportion of cranberry juice to sparkling water needed to make the punch. Complete the chart, graph the data, and write the equation that models this proportional relationship.

2. Jenny is a member of a summer swim team.

a. Using the graph, determine how many calories she burns in one minute.

b. Use the graph to determine the equation that models the number of calories Jenny burns within a certain number of minutes.

c. How long will it take her to burn off a 480-calorie smoothie that she had for breakfast?

Sparkling Water ( , in cups)

Cranberry Juice ( , in cups)

1 45

5 4

8

12 935

40

100

Lesson Summary Proportional relationships can be represented through the use of graphs, tables, equations, diagrams, and verbal descriptions.

In a proportional relationship arising from ratios and rates involving fractions, the graph gives a visual display of all values of the proportional relationship, especially the quantities that fall between integer values.

S.63

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 65: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 15: Equations of Graphs of Proportional Relationships Involving Fractions

7•1 Lesson 15

3. Students in a world geography class want to determine the distances between cities in Europe. The map gives all distances in kilometers. The students want to determine the number of miles between towns so that they can compare distances with a unit of measure with which they are already familiar. The graph below shows the relationship between a given number of kilometers and the corresponding number of miles.

a. Find the constant of proportionality, or the rate of miles per kilometer, for this problem, and write the equation that models this relationship.

b. What is the distance in kilometers between towns that are 5 miles apart? c. Describe the steps you would take to determine the distance in miles between two towns that are 200

kilometers apart?

4. During summer vacation, Lydie spent time with her grandmother picking blackberries. They decided to make blackberry jam for their family. Her grandmother said that you must cook the berries until they become juice and then combine the juice with the other ingredients to make the jam. a. Use the table below to determine the constant of proportionality of cups of juice to cups of blackberries.

Cups of Blackberries Cups of Juice

0 0

4 113

8 223

12

8

b. Write an equation that models the relationship between the number of cups of blackberries and the number of cups of juice.

c. How many cups of juice were made from 12 cups of berries? How many cups of berries are needed to make 8 cups of juice?

S.64

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 66: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 16: Relating Scale Drawings to Ratios and Rates

7•1 Lesson 16

SCALE DRAWING: A reduced or enlarged two-dimensional drawing of an original two-dimensional drawing.

Lesson 16: Relating Scale Drawings to Ratios and Rates

Classwork Opening Exercise: Can You Guess the Image?

1. 2.

Example 1

For the following problems, (a) is the actual picture, and (b) is the drawing. Is the drawing an enlargement or a reduction of the actual picture?

1. a. b. 2. a.

b.

S.65

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 67: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 16: Relating Scale Drawings to Ratios and Rates

7•1 Lesson 16

Example 2

Derek’s family took a day trip to a modern public garden. Derek looked at his map of the park that was a reduction of

the map located at the garden entrance. The dots represent the placement of rare plants. The diagram below is the

top-view as Derek held his map while looking at the posted map.

What are the corresponding points of the scale drawings of the maps?

Point 𝐴𝐴 to _________ Point to ____________ Point to ____________ Point to ____________

S.66

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 68: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 16: Relating Scale Drawings to Ratios and Rates

7•1 Lesson 16

Exploratory Challenge

Create scale drawings of your own modern nesting robots using the grids provided.

S.67

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 69: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 16: Relating Scale Drawings to Ratios and Rates

7•1 Lesson 16

Example 3

Celeste drew an outline of a building for a diagram she was making and then drew a second one mimicking her original drawing. State the coordinates of the vertices and fill in the table.

Notes:

Exercise

Luca drew and cut out a small right triangle for a mosaic piece he was creating for art class. His mother liked the mosaic piece and asked if he could create a larger one for their living room. Luca made a second template for his triangle pieces.

a. Fill in the table. Does a constant of proportionality exist? If so, what is it? If not, explain.

b. Is Luca’s enlarged mosaic a scale drawing of the first image? Explain why or why not.

Height Length

Original Drawing

Second Drawing

Height Width

Original Image

Second Image

S.68

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 70: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 16: Relating Scale Drawings to Ratios and Rates

7•1 Lesson 16

Problem Set For Problems 1–3, identify if the scale drawing is a reduction or an enlargement of the actual picture.

1. ___________________________

a. Actual Picture b. Scale Drawing

Lesson Summary SCALE DRAWING AND SCALE FACTOR: For two figures in the plane, and , is said to be a scale drawing of with scale factor if there is a one-to-one correspondence between and so that, under the pairing of this one-to-one correspondence, the distance | | between any two points and of is related to the distance | | between corresponding points and of by | | = | |.

A scale drawing is an enlargement or magnification of another figure if the scale drawing is larger than the original drawing, that is, if > 1.

A scale drawing is a reduction of another figure if the scale drawing is smaller than the original drawing, that is, if 0 < < 1.

S.69

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 71: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 16: Relating Scale Drawings to Ratios and Rates

7•1 Lesson 16

2. ____________________________

a. Actual Picture

b. Scale Drawing

3. __________________________

a. Actual Picture b. Scale Drawing

S.70

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 72: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 16: Relating Scale Drawings to Ratios and Rates

7•1 Lesson 16

4. Using the grid and the abstract picture of a face, answer the following questions:

𝐴𝐴 𝐵𝐵 𝐶𝐶 𝐷𝐷

a. On the grid, where is the eye?

b. What is located in 𝐷𝐷 ?

c. In what part of the square 𝐵𝐵 is the chin located?

5. Use the blank graph provided to plot the points and decide if the rectangular cakes are scale drawings of each other.

Cake 1: (5,3), (5,5), (11,3), (11, 5)

Cake 2: (1,6), (1, 12),(13,12), (13, 6)

How do you know?

S.71

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 73: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 17

Lesson 17: The Unit Rate as the Scale Factor

Lesson 17: The Unit Rate as the Scale Factor

Classwork

Example 1: Jake’s Icon

Jake created a simple game on his computer and shared it with his friends to play. They were instantly hooked, and the popularity of his game spread so quickly that Jake wanted to create a distinctive icon so that players could easily identify his game. He drew a simple sketch. From the sketch, he created stickers to promote his game, but Jake wasn’t quite sure if the stickers were proportional to his original sketch.

Original Sketch: Sticker:

S.72

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 74: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 17

Lesson 17: The Unit Rate as the Scale Factor

Exercise 1: App Icon

Steps to check for proportionality for scale drawing and original object or picture:

1.

2.

3.

Key Idea:

The scale factor can be calculated from the ratio of any length in the scale drawing to its corresponding length in the actual picture. The scale factor corresponds to the unit rate and the constant of proportionality.

Scaling by factors greater than 1 enlarges the segment, and scaling by factors less than 1 reduces the segment.

S.73

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 75: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 17

Lesson 17: The Unit Rate as the Scale Factor

Example 2

Use a Scale Factor of 3 to create a scale drawing of the picture below.

Picture of the flag of Colombia:

Exercise 2

Scale Factor = 12 Picture of the flag of Colombia:

Sketch and notes:

S.74

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 76: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 17

Lesson 17: The Unit Rate as the Scale Factor

Example 3

Your family recently had a family portrait taken. Your aunt asks you to take a picture of the portrait using your phone

and send it to her. If the original portrait is 3 feet by 3 feet, and the scale factor is , draw the scale drawing that would

be the size of the portrait on your phone.

Sketch and notes:

Exercise 3

John is building his daughter a doll house that is a miniature model of their house. The front of their house has a circular

window with a diameter of 5 feet. If the scale factor for the model house is , make a sketch of the circular doll house

window.

S.75

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 77: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 17

Lesson 17: The Unit Rate as the Scale Factor

3 cm

Problem Set 1. Giovanni went to Los Angeles, California, for the summer to visit his cousins. He used a map of bus routes to get

from the airport to his cousin’s house. The distance from the airport to his cousin’s house is 56 km. On his map, the distance is 4 cm. What is the scale factor?

2. Nicole is running for school president. Her best friend designed her campaign poster, which measured 3 feet by 2 feet. Nicole liked the poster so much, she reproduced the artwork on rectangular buttons that measured 2 inches

by 1 13 inches. What is the scale factor?

3. Find the scale factor using the given scale drawings and measurements below.

Scale Factor: _________________________

Actual Picture Scale Drawing

4. Find the scale factor using the given scale drawings and measurements below.

Scale Factor: _________________________

Actual Picture Scale Drawing

5 cm

S.76

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 78: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 17

Lesson 17: The Unit Rate as the Scale Factor

5. Using the given scale factor, create a scale drawing from the actual pictures in inches:

a. Scale factor: 3

1 in.

b. Scale factor:

6. Hayden likes building radio-controlled sailboats with her father. One of the sails, shaped like a right triangle, has side lengths measuring 6 inches, 8 inches, and 10 inches. To log her activity, Hayden creates and collects drawings

of all the boats she and her father built together. Using the scale factor of , create a scale drawing of the sail.

S.77

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 79: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 18

Lesson 18: Computing Actual Lengths from a Scale Drawing

Lesson 18: Computing Actual Lengths from a Scale Drawing

Classwork

Example 1: Basketball at Recess?

Vincent proposes an idea to the Student Government to install a basketball hoop along with a court marked with all the shooting lines and boundary lines at his school for students to use at recess. He presents a plan to install a half-court design as shown below. After checking with the school administration, he is told it will be approved if it fits on the empty lot that measures 25 feet by 75 feet on the school property. Will the lot be big enough for the court he planned? Explain.

Scale Drawing: 1 inch on the drawing corresponds to 15 feet of actual length.

S.78

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 80: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 18

Lesson 18: Computing Actual Lengths from a Scale Drawing

Example 2

The diagram shown represents a garden. The scale is 1 centimeter for every 20 meters. Each square in the drawing measures 1 cm by 1 cm. Find the actual length and width of the garden based upon the given drawing.

S.79

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 81: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 18

Lesson 18: Computing Actual Lengths from a Scale Drawing

Example 3

A graphic designer is creating an advertisement for a tablet. She needs to enlarge the picture given here so that 0.25 inches on the scale picture corresponds to 1 inch on the actual advertisement. What will be the length and width of the tablet on the advertisement?

Scale Picture of Tablet

114 in.

118 in.

S.80

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 82: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 18

Lesson 18: Computing Actual Lengths from a Scale Drawing

Exercise

Students from the high school are going to perform one of the acts from their upcoming musical at the atrium in the mall. The students want to bring some of the set with them so that the audience can get a better feel for the whole production. The backdrop that they want to bring has panels that measure 10 feet by 10 feet. The students are not sure if they will be able to fit these panels through the entrance of the mall since the panels need to be transported flat (horizontal). They obtain a copy of the mall floor plan, shown below, from the city planning office. Use this diagram to decide if the panels will fit through the entrance. Use a ruler to measure.

Answer the following questions.

a. Find the actual distance of the mall entrance, and determine whether the set panels will fit.

b. What is the scale factor? What does it tell us?

Scale:

inch on the drawing

represents 4 12 feet of

actual length. To Atrium

and

Additional

Stores

Store 1 Store 2

Mall Entrance

in.

S.81

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 83: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 18

Lesson 18: Computing Actual Lengths from a Scale Drawing

Problem Set 1. A toy company is redesigning its packaging for model cars. The graphic design team needs to take the old image

shown below and resize it so that inch on the old packaging represents inch on the new package. Find the length

of the image on the new package.

Car image length on old packaging measures 2 inches.

2. The city of St. Louis is creating a welcome sign on a billboard for visitors to see as they enter the city. The following

picture needs to be enlarged so that inch represents 7 feet on the actual billboard. Will it fit on a billboard that

measures 14 feet in height?

3. Your mom is repainting your younger brother’s room. She is going to project the image shown below onto his wall so that she can paint an enlarged version as a mural. Use a ruler to determine the length of the image of the train. Then determine how long the mural will be if the projector uses a scale where 1 inch of the image represents 2 1

2 feet on the wall.

4. A model of a skyscraper is made so that 1 inch represents 75 feet. What is the height of the actual building if the

height of the model is 18 35 inches?

S.82

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 84: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

7•1 Lesson 18

Lesson 18: Computing Actual Lengths from a Scale Drawing

5. The portrait company that takes little league baseball team photos is offering an option where a portrait of your

baseball pose can be enlarged to be used as a wall decal (sticker). Your height in the portrait measures 3 12 inches. If

the company uses a scale where 1 inch on the portrait represents 20 inches on the wall decal, find the height on the wall decal. Your actual height is 55 inches. If you stand next to the wall decal, will it be larger or smaller than you?

6. The sponsor of a 5K run/walk for charity wishes to create a stamp of its billboard to commemorate the event. If the sponsor uses a scale where 1 inch represents 4 feet, and the billboard is a rectangle with a width of 14 feet and a length of 48 feet, what will be the shape and size of the stamp?

7. Danielle is creating a scale drawing of her room. The rectangular room measures 20 12 ft. by 25 ft. If her drawing

uses the scale where 1 inch represents 2 feet of the actual room, will her drawing fit on an 8 12 in. by 11 in. piece of

paper?

8. A model of an apartment is shown below where inch represents 4 feet in the actual apartment. Use a ruler to

measure the drawing and find the actual length and width of the bedroom.

Bedroom

S.83

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 85: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 19: Computing Actual Areas from a Scale Drawing

7•1 Lesson 19

Lesson 19: Computing Actual Areas from a Scale Drawing

Classwork

Examples 1–3: Exploring Area Relationships

Use the diagrams below to find the scale factor and then find the area of each figure.

Example 1

Scale factor: _________

Actual Area = ______________

Scale Drawing Area = ________________

Value of the Ratio of the Scale Drawing Area to the

Actual Area: _________

Example 2

Scale factor: _________

Actual Area = ______________

Scale Drawing Area = ________________

Value of the Ratio of the Scale Drawing Area to the

Actual Area: _________

S.84

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 86: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 19: Computing Actual Areas from a Scale Drawing

7•1 Lesson 19

Example 3

Scale factor: _________

Actual Area = ______________

Scale Drawing Area = ________________

Value of the Ratio of the Scale Drawing Area to the

Actual Area: _________

Results: What do you notice about the ratio of the areas in Examples 1–3? Complete the statements below.

When the scale factor of the sides was 2, then the value of the ratio of the areas was _____________.

When the scale factor of the sides was , then the value of the ratio of the areas was _____________.

When the scale factor of the sides was , then the value of the ratio of the areas was _____________.

Based on these observations, what conclusion can you draw about scale factor and area?

If the scale factor of the sides is , then the ratio of the areas is ___________________.

S.85

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 87: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 19: Computing Actual Areas from a Scale Drawing

7•1 Lesson 19

Example 4: They Said Yes!

The Student Government liked your half-court basketball plan. They have asked you to calculate the actual area of the

court so that they can estimate the cost of the project.

Based on your drawing below, what will the area of the planned half-court be?

Scale Drawing: 1 inch on the drawing corresponds to 15 feet of actual length

S.86

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 88: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 19: Computing Actual Areas from a Scale Drawing

7•1 Lesson 19

Does the actual area you found reflect the results we found from Examples 1–3? Explain how you know.

Exercises

1. The triangle depicted by the drawing has an actual area of 36 square units. What is the scale of the drawing?

(Note: Each square on the grid has a length of 1 unit.)

S.87

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 89: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 19: Computing Actual Areas from a Scale Drawing

7•1 Lesson 19

2. Use the scale drawings of two different apartments to answer the questions. Use a ruler to measure.

a. Find the scale drawing area for both apartments, and then use it to find the actual area of both apartments.

b. Which apartment has closets with more square footage? Justify your thinking.

Suburban Apartment

Scale: 1 inch on a scale drawing

corresponds to 12 feet in the

actual apartment.

City Apartment

Scale: 1 inch on a scale drawing

corresponds to 16 feet in the

actual apartment.

S.88

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 90: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 19: Computing Actual Areas from a Scale Drawing

7•1 Lesson 19

c. Which apartment has the largest bathroom? Justify your thinking.

d. A one-year lease for the suburban apartment costs $750 per month. A one-year lease for the city apartment

costs $925. Which apartment offers the greater value in terms of the cost per square foot?

S.89

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 91: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 19: Computing Actual Areas from a Scale Drawing

7•1 Lesson 19

Problem Set 1. The shaded rectangle shown below is a scale drawing of a rectangle whose area is 288 square feet. What is the

scale factor of the drawing? (Note: Each square on the grid has a length of 1 unit.)

2. A floor plan for a home is shown below where inch corresponds to 6 feet of the actual home. Bedroom 2 belongs

to 13-year-old Kassie, and Bedroom 3 belongs to 9-year-old Alexis. Kassie claims that her younger sister, Alexis, got

the bigger bedroom. Is she right? Explain.

Lesson Summary Given the scale factor, , representing the relationship between scale drawing length and actual length, the square

of this scale factor, , represents the relationship between the scale drawing area and the actual area.

For example, if 1 inch on the scale drawing represents 4 inches of actual length, then the scale factor, , is . On

this same drawing, 1 square inch of scale drawing area would represent 16 square inches of actual area since is

.

Bedroom 1

Bedroom 3

Alexis

Bedroom 2

Kassie

Bathroom

S.90

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 92: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 19: Computing Actual Areas from a Scale Drawing

7•1 Lesson 19

3. On the mall floor plan, inch represents 3 feet in the actual store.

a. Find the actual area of Store 1 and Store 2.

b. In the center of the atrium, there is a large circular water feature that has an area of

964 square inches on

the drawing. Find the actual area in square feet.

4. The greenhouse club is purchasing seed for the lawn in the school courtyard. The club needs to determine how

much to buy. Unfortunately, the club meets after school, and students are unable to find a custodian to unlock the

door. Anthony suggests they just use his school map to calculate the area that will need to be covered in seed. He

measures the rectangular area on the map and finds the length to be 10 inches and the width to be 6 inches. The

map notes the scale of 1 inch representing 7 feet in the actual courtyard. What is the actual area in square feet?

5. The company installing the new in-ground pool in your backyard has provided you with the scale drawing shown

below. If the drawing uses a scale of 1 inch to 1 34 feet, calculate the total amount of two-dimensional space needed

for the pool and its surrounding patio.

Swimming Pool and Patio Drawing

To Atrium

and

Additional

Stores

Mall Entrance

Store 1 Store 2

22 27 in.

11 37 in.

S.91

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 93: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 20: An Exercise in Creating a Scale Drawing

7•1 Lesson 20

Lesson 20: An Exercise in Creating a Scale Drawing

Classwork

Today you will be applying your knowledge from working with scale drawings to create a floor plan for your idea of the dream classroom.

Exploratory Challenge: Your Dream Classroom

Guidelines

Take measurements: All students will work with the perimeter of the classroom as well as the doors and windows. Give students the dimensions of the room. Have students use the table provided to record the measurements.

Create your dream classroom, and use the furniture catalog to pick out your furniture: Students will discuss what their ideal classroom will look like with their partners and pick out furniture from the catalog. Students should record the actual measurements on the given table.

Determine the scale and calculate scale drawing lengths and widths: Each pair of students will determine its own scale. The calculation of the scale drawing lengths, widths, and areas is to be included.

Scale Drawing: Using a ruler and referring back to the calculated scale length, students will draw the scale drawing including the doors, windows, and furniture.

Measurements

Scale: _________________

Classroom Perimeter

Windows Door Additional Furniture

Actual Length:

Width:

Scale Drawing Length:

Width:

S.92

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 94: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 20: An Exercise in Creating a Scale Drawing

7•1 Lesson 20

Initial Sketch: Use this space to sketch the classroom perimeter, draw out your ideas, and play with the placement of the furniture.

S.93

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 95: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 20: An Exercise in Creating a Scale Drawing

7•1 Lesson 20

Scale Drawing: Use a ruler and refer back to the calculated scale length, draw the scale drawing including the doors, windows, and furniture.

S.94

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 96: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 20: An Exercise in Creating a Scale Drawing

7•1 Lesson 20

Area

Classroom

Actual Area:

Scale Drawing Area:

S.95

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 97: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 20: An Exercise in Creating a Scale Drawing

7•1 Lesson 20

Problem Set

Interior Designer

You won a spot on a famous interior designing TV show! The designers will work with you and your existing furniture to redesign a room of your choice. Your job is to create a top-view scale drawing of your room and the furniture within it.

� With the scale factor being , create a scale drawing of your room or other favorite room in your home on a

sheet of 8.5 × 11-inch graph paper. � Include the perimeter of the room, windows, doorways, and three or more furniture pieces (such as tables,

desks, dressers, chairs, bed, sofa, ottoman, etc.). � Use the table to record lengths and include calculations of areas. � Make your furniture “moveable” by duplicating your scale drawing and cutting out the furniture. � Create a “before” and “after” to help you decide how to rearrange your furniture. Take a photo of your

“before.” � What changed in your furniture plans? � Why do you like the “after” better than the “before”?

Lesson Summary

Scale Drawing Process:

1. Measure lengths and widths carefully with a ruler or tape measure. Record the measurements in an organized table.

2. Calculate the scale drawing lengths, widths, and areas using what was learned in previous lessons.

3. Calculate the actual areas.

4. Begin by drawing the perimeter, windows, and doorways.

5. Continue to draw the pieces of furniture making note of placement of objects (distance from nearest wall).

6. Check for reasonableness of measurements and calculations.

S.96

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 98: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 20: An Exercise in Creating a Scale Drawing

7•1 Lesson 20

Entire Room

Windows Doors Desk/ Tables

Seating Storage Bed

Actual Length:

Actual Width:

Scale Drawing Length:

Scale Drawing Width:

Entire Room Length

Desk/Tables Seating Storage Bed

Actual Area:

Scale Drawing Area:

S.97

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 99: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 20: An Exercise in Creating a Scale Drawing

7•1 Lesson 20

S.98

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 100: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 20: An Exercise in Creating a Scale Drawing

7•1 Lesson 20

S.99

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 101: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 21: An Exercise in Changing Scales

7•1 Lesson 21

Lesson 21: An Exercise in Changing Scales

Classwork How does your scale drawing change when a new scale factor is presented?

Exploratory Challenge: A New Scale Factor

The school plans to publish your work on the dream classroom in the next newsletter. Unfortunately, in order to fit the

drawing on the page in the magazine, it must be its current length. Create a new drawing ( 𝐷𝐷2) in which all of the

lengths are those in the original scale drawing ( 𝐷𝐷1) from Lesson 20.

S.100

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 102: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 21: An Exercise in Changing Scales

7•1 Lesson 21

Exercise

The picture shows an enlargement or reduction of a scale drawing of a trapezoid.

Using the scale factor written on the card you chose, draw your new scale drawing with correctly calculated measurements.

a. What is the scale factor between the original scale drawing and the one you drew?

b. The longest base length of the actual trapezoid is 10 cm. What is the scale factor between the original scale drawing and the actual trapezoid?

c. What is the scale factor between the new scale drawing you drew and the actual trapezoid?

S.101

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 103: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 21: An Exercise in Changing Scales

7•1 Lesson 21

Changing Scale Factors:

� To produce a scale drawing at a different scale, you must determine the new scale factor. The new scale factor is found by dividing the different (new drawing) scale factor by the original scale factor.

� To find each new length, you can multiply each length in the original scale drawing by this new scale factor.

Steps:

� Find each scale factor.

� Divide the new scale factor by the original scale factor.

� Divide the given length by the new scale factor (the quotient from the prior step).

S.102

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 104: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 21: An Exercise in Changing Scales

7•1 Lesson 21

Problem Set

1. Jake reads the following problem: If the original scale factor for a scale drawing of a square swimming pool is ,

and the length of the original drawing measured to be 8 inches, what is the length on the new scale drawing if the

scale factor of the new scale drawing length to actual length is ?

He works out the problem:

8 inches ÷ = 720 inches

720 inches × = 5 inches

Is he correct? Explain why or why not.

2. What is the scale factor of the new scale drawing to the original scale drawing ( 𝐷𝐷2 to 𝐷𝐷1)?

3. Using the scale, if the length of the pool measures 10 cm on the new scale drawing:

a. Using the scale factor from Problem 1, , find the actual length of the pool in meters.

b. What is the surface area of the floor of the actual pool? Rounded to the nearest tenth.

c. If the pool has a constant depth of 1.5 meters, what is the volume of the pool? Rounded to the nearest tenth.

d. If 1 cubic meter of water is equal to 264.2 gallons, how much water will the pool contain when completely filled? Rounded to the nearest unit.

4. Complete a new scale drawing of your dream room from the Problem Set in Lesson 20 by either reducing by or

enlarging it by 4.

Lesson Summary

Variations of Scale Drawings with different scale factors are scale drawings of an original scale drawing.

From a scale drawing at a different scale, the scale factor for the original scale drawing can be computed without information of the actual object, figure, or picture.

� For example, if scale drawing one has a scale factor of and scale drawing two has a scale factor of ,

then the scale factor relating scale drawing two to scale drawing one is

172 to

124 =

1721

24=

172

241 =

13 .

� Scale drawing two has lengths that are the size of the lengths of scale drawing one.

S.103

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 105: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 22: An Exercise in Changing Scales

7•1 Lesson 22

Key Idea:

Two different scale drawings of the same top-view of a room are also scale drawings of each other. In other words, a scale drawing of a different scale can also be considered a scale drawing of the original scale drawing.

Lesson 22: An Exercise in Changing Scales

Classwork Exploratory Challenge: Reflection on Scale Drawings

Using the new scale drawing of your dream room, list the similarities and differences between this drawing and the original drawing completed for Lesson 20.

Similarities Differences

Original Scale Factor: ___________________ New Scale Factor: _______________________

What is the relationship between these scale factors?

S.104

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 106: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 22: An Exercise in Changing Scales

7•1 Lesson 22

Example 1: Building a Bench

To surprise her mother, Taylor helped her father build a bench for the front porch. Taylor’s father had the instructions with drawings, but Taylor wanted to have her own copy. She enlarged her copy to make it easier to read. Using the following diagram, fill in the missing information. To complete the first row of the table, write the scale factor of the bench to the bench, the bench to the original diagram, and the bench to Taylor's diagram. Complete the remaining rows similarly.

The pictures below show the diagram of the bench shown on the original instructions and the diagram of the bench shown on Taylor’s enlarged copy of the instruction.

Original Drawing of Bench (top view) Taylor’s Drawing (top view)

Scale factor to the bench: 12

2 inches 6 inches

Scale Factors

Bench Original Diagram Taylor’s Diagram

Bench 1

Original Diagram 1

Taylor’s Diagram 1

Exercise 1

Carmen and Jackie were driving separately to a concert. Jackie printed a map of the directions on a piece of paper before the drive, and Carmen took a picture of Jackie’s map on her phone. Carmen’s map had a scale factor to the

actual distance of ,

. Using the pictures, what is the scale of Carmen’s map to Jackie’s map? What was the scale

factor of Jackie’s printed map to the actual distance?

Jackie’s Map Carmen’s Map

26 cm

4 cm

S.105

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 107: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 22: An Exercise in Changing Scales

7•1 Lesson 22

Exercise 2

Ronald received a special toy train set for his birthday. In the picture of the train on the package, the boxcar has the

following dimensions: length is 4 516 inches; width is 1 1

8 inches; and height is 1 58 inches. The toy boxcar that Ronald

received has dimensions is 17.25 inches; is 4.5 inches; and is 6.5 inches. If the actual boxcar is 50 feet long:

a. Find the scale factor of the picture on the package to the toy set.

b. Find the scale factor of the picture on the package to the actual boxcar.

c. Use these two scale factors to find the scale factor between the toy set and the actual boxcar.

d. What are the width and height of the actual boxcar?

S.106

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 108: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 22: An Exercise in Changing Scales

7•1 Lesson 22

Problem Set 1. For the scale drawing, the actual lengths are labeled onto the scale drawing. Measure the lengths, in centimeters, of

the scale drawing with a ruler, and draw a new scale drawing with a scale factor (SD2 to SD1) of .

10 ft.

2 ft.

4 ft.

Lesson Summary The scale drawing of a different scale is a scale drawing of the original scale drawing.

To find the scale factor for the original drawing, write a ratio to compare the drawing length from the original drawing to its corresponding actual length from the second scale drawing.

Refer to the example below where we compare the drawing length from the Original Scale drawing to its corresponding actual length from the New Scale drawing:

6 inches represents 12 feet or 0.5 feet represent 12 feet

This gives an equivalent ratio of for the scale factor of the original drawing.

S.107

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org

Page 109: Eureka Math ªmstrossiteachmath.weebly.com/uploads/3/0/2/3/30233661/module_1_student_workbook.pdf& ! # 0+,( ! ' ! # 0''' !!!!! $%&&'()* ) !"#!!!!

Lesson 22: An Exercise in Changing Scales

7•1 Lesson 22

2. Compute the scale factor of the new scale drawing (SD2) to the first scale drawing (SD1) using the information from the given scale drawings.

a. Original Scale Factor: New Scale Factor:

Scale Factor: _____________

b. Original Scale Factor: New Scale Factor: 3

Scale Factor: _______________

c. Original Scale Factor: 20 New Scale Factor: 25

Scale Factor: _______________

S.108

A STORY OF RATIOS

©2016 Great Minds. eureka-math.org